Pathogenesis of human atheroma necrotic core: degradation of connective tissue fibers and possible involvement of cathepsin K

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Abstract Background Atheroma is a serious atherosclerotic lesion related to plaque rupture, thrombosis, and ischemic disease. To clarify the pathogenesis of human atheroma, particularly the formation of the liponecrotic tissue in the necrotic core, the distribution of connective tissue fibers, such as collagen and elastic fibers, and related substances was investigated in this study. Methods Atherosclerotic lesions in human coronary arteries were classified into three categories: pathologic intimal thickening (PIT), atheroma with lipid core (ALC), and atheroma with necrotic core (ANC). PIT and ALC consisted of the lipid pool and the lipid core, respectively. The necrotic core of ANC was composed of a lipid core-like region and liponecrotic tissue containing amorphous materials and lacking cells and connective tissue fibers. The distribution of collagen type I, elastin, C-terminal crosslinked telopeptide of collagen type I (CTX-I), and cathepsin K (CatK) was investigated through immunohistochemistry. CTX-I is a fragmented peptide consisting of the C-terminal region of collagen type I that is generated by CatK. The distribution of denatured and unfolded collagen chains was also investigated through collagen hybridizing peptide staining. Results Collagen type I, denatured and unfolded collagen chains, and elastin were positively stained in the PIT, ALC, and lipid core-like region of ANC. However, they were negatively stained in the liponecrotic tissue of ANC. CTX-I and CatK were positively stained in all four regions, and their grade of staining appeared to show a positive relationship. Both CTX-I and CatK demonstrated higher staining grades in the liponecrotic tissue. These findings suggested that pre-existing collagen type I was severely degraded by CatK, resulting in the production of CTX-I in the liponecrotic tissue, and that pre-existing elastin was also degraded in this region. CatK was mainly found in macrophage foam cells, many of which were localized within and around the liponecrotic tissue. Conclusions This study suggests that the liponecrotic tissue in the necrotic core of human atheroma is formed by severe degradation of pre-existing connective tissue fibers and consequent collapse of tissue structure. This degradation is likely caused by proteolytic enzymes, such as CatK, secreted by macrophage foam cells.

Keywords

• Human
• Atheroma
• Necrotic core
• Liponecrotic tissue
• Collagen type I
• CTX-I